Though Porsche’s specific additive manufacturing partners are typically undisclosed new comments from Christian Thönes, Chairman of the Board at DMG MORI, serve to shed light on the role 3D printing is playing in its partnership with the company.

DMG MORI hybrid manufacturing

Before his executive board tenure, Thönes was responsible for building DMG MORI’s advanced technologies business, encompassing ULTRASONIC and LASERTEC machines. Where ULTRASONIC is responsible for traditional milling of advanced materials, LASERTEC is DMG MORI’s hybrid machining range. In LASERTEC machines LMD or PBF additive manufacturing is combined with traditional milling in a single turnkey system.

DMG MORI’s history with Porsche dates back to at least 2014. From then up to 2017, DMG MORI was the exclusive partner of the Porsche FIA World Endurance Championship team, working on the 919 Hybrid sports-prototype racecar.

Now discontinued, allowing Porsche to focus on Formula E, the 919 car was a hybrid powered vehicle, relying on a direct-injected turbocharged V4 engine with a lithium-ion battery. DMG MORI’s traditional machining techniques were used to make parts of the 919 Hybrid. However, citing additive manufacturing as a leading solution, Thönes says, “[…] because of the associated reduction in fuel consumption and lower carbon dioxide emissions […] It’s increasingly important to automotive manufacturers that components are lighter.”

3D printing for electric engines

In Germany, Development Centre Weissach is home to some of Porsche’s experimentation in additive manufacturing. Using powder bed fusion based metal and polymer fabrication techniques, developers at the center have been investigating the technology’s potential application in rotor shafts for electric engines.

Design of rotorshaft to be produced using selective laser melting (SLM) at Porsche. Image via Porsche

Frank Ickinger, Senior Engineer for Advanced Engineering and Engine Predevelopment at Porsche, comments, “It can still take up to 13 hours to print one rotor shaft like this [with PBF technolgies].”

As such, Thönes is keen to maintain the strong promise of a collaboration between additive and subtractive technologies in the future of manufacturing:

“While additive manufacturing offers many advantages, it is also clear that traditional production processes – such as turning and milling – will continue to have their place in future.”

Interestingly, he also suggests the potential of a system combining metal and polymers in one, describing “A laser beam that creates a few thousand degrees Celsius in a focused manner […] used to fuse stainless steel with plastic.”

Beau Jackson is Senior Journalist at 3D Printing Industry. With a longstanding commitment to the site's content, she is credited with producing more articles than any other author in its history. Well-versed in the latest 3D printing research and legal/regulatory challenges, her repertoire spans aerospace, automotive, maritime, medical and creative industries. She is a keen speaker and active representative of the company at key additive manufacturing events.